DE2122265C3 - Anti-caking agents and methods of using them - Google Patents

Description

It is known that simple and mixed fertilizers have a tendency to deteriorate during storage and transportation to bake together. This causes problems in distribution and use. It is known that one to avoid these disadvantages, the products can be treated with a powdered compound to remove the avoid direct contact between the hygroscopic salt particles and part of the Absorb moisture. These so-called powder agents are, for example, kieselguhr, silicon dioxide, clay, Talc and powdered lime. However, this treatment does not give satisfactory results, if products which tend to stick together are used, e.g. B. highly concentrated NPK fertilizers, and moreover has the disadvantage that the treated products in production, when Transport, as well as with the distribution in the fields dust. Other additives for fertilizers are ω surface-active agents, such as condensation products of formaldehyde and arylsulfonic acid and their salts, Condensation products of higher alcohols and ethylene oxide, paraffin, aliphatic amines and their Derivatives that contain the additive b5 fe form a water-repellent layer on the particles. However, these remedies cannot fully do that Prevent caking, and it was therefore necessary to use a powdering agent in an additional step to add. Such a combined treatment of hydroscopic substances with powdering agents and hydrophobic substances is known, for example, from DE-PS 1 06 228, where kieselguhr and fatty materials be used. From DE-PS 11 37 049 it is known hydrocarbon materials together with or after adding the powder. According to US patents 27 02 747, 32 01 354, 32 34 003 and 32 34 006 consist of anti-caking agents consisting of a main amount of powder substances with small amounts of hydrophobic agents. However, it has been found that such a treatment also prevents caking only prevented in an unsatisfactory manner and cannot prevent the product from dusting. this However, it brings with it hygienic disadvantages, so that it has been urgently required in recent years. Products use that do not lead to dust formation. GB patents 8 97 642 and 10 26 084 teach the Treatment of ammonium nitrate with finely divided inert materials and small amounts of one aliphatic amine. This has the disadvantage that the resulting mixture in the hot state cold ammonium nitrate must be added.

Surprisingly, it has now been found that when using a melted together mixture an inorganic powder material with one or more hydrophobizing organic compounds in the form of prilis or granules not suggested by the above literature references preventing caking with high efficiency and practically any dust problem can be switched off.

The invention therefore relates to an anti-caking agent consisting of a mixture of an inorganic one Powder material and one or more hydrophobic organic compounds, which is characterized is that it consists of a mixture melted together and in the form of prills or Granules with a diameter of at least 0.2 mm are present.

Such a mixture can be 10-90% by weight of one hydrophobizing organic compound, preferably 40-60% by weight. The powder material can for example be kaolin, talc or kieselguhr. The hydrophobing agent can be organic Be an amine with at least 12 carbon atoms in the molecule or a mixture of such amines. as well salts of an alkylamine and a mineral acid or an organic acid can be used, for example the chloride, acetate or stearate of an aliphatic amine. Mixtures of amines and Amides can also be used. The hydrophobing compound can also consist of a Hydrocarbon consist, for example mineral oil or paraffin or a mixture of mineral oil and aliphatic amines and / or their salts. The remedy produced in this way is in the form of prills or in granulated form with a diameter of 0.2-3 mm or greater. Hence the powder material according to the invention entirely enclosed in the organic phase, what if the agent on the grains melted, both a better anti-caking effect and a dust-free product results.

The invention also relates to the production and use of animals characterized in the claims Anti-caking agents.

The application of the agent can suitably be carried out by mixing the fertilizer at a temperature be carried out in the agent above the melting point of the hydrophobing compound. as well it is possible to first treat the fertilizer with a solvent for the hydrophobizing compound and then treat yourself with the remedy. This procedure can be carried out at room temperature will. Alternatively, you can treat the fertilizer with a mineral oil and then with the agent.

The preparation of the agent itself takes place by melting the powder material with the hydrophobic compound. A dye can also be added at the same time. The melted one Product is sprayed into a cooling tower to form prills or to form granules (granules) in introduced a granulator

example 1

2000 g NPK fertilizer 15-15-15, C were heated in a rotary drum at 8O ^0, followed by 2 g of an anti-caking agent in the form of small prills containing 45% talc and 55% stearyl amine containing, was added. (All percentages are percentages by weight.) The fertilizer was rotated for 10 minutes at a constant temperature during which time the prills were completely melted and the kernels were covered with a thin layer of the protective anti-caking agent. The NPK fertilizer thus treated was subjected to an accelerated storage test for 68 hours with a programmed temperature change of 30-50 ° C and corresponding fluctuations in relative humidity of 44-61% and a pressure of 2 kg / cm ² corresponding to a storage height of 20 m subject. After storage, the so-called crushing pressure was determined, which is a direct measure of the tendency to cake. Corresponding storage tests were also carried out for untreated NPK fertilizers and for NPK fertilizers treated in the usual way with diatomite and amine. The following results were obtained:

Untreated NPK fertilizer

NPK fertilizers treated

with 0.5% kieselguhr and 0.08% amine

NPK fertilizers treated

with 0.10% prills as above

Shredding pressure

34.5 kg

17.7 kg

9.5 kg

Untreated Calcium

ammonium nitrate 75 kg

Treated with 1% lime

Calcium ammonium nitrate 25 kg

With a means according to the invention

treated calcium ammonium nitrate 7.6 kg

The agent according to the invention used resulted in a dust-free product with considerably less Tendency to cake.

Example 3

NPK fertilizer 15-15-15 was treated according to Example I ₁ but at 107 ⁰ C, with one part with 0.10% of a stearylamine and another part with 0.09% of a melted intimate mixture of 50% talc and 50% Stearylamine was treated. This agent was added to the heated fertilizer in the form of small prills. The treatments were compared with each other and with untreated and normally treated NPK fertilizers in an accelerated storage test. The following results were obtained:

45

The specific treatment was not only better than that in the anti-caking effect common, but it also resulted in a completely dust-free product.

Example 2

Calcium ammonium nitrate containing 26% nitrogen was treated in the same way and with the same agent as in Example 1, but at 70 ° C. The storage test was carried out at 35-45 ° C, a relative humidity of 50-59% and a pressure of 1.5 kg / cm ² . Comparative tests were carried out with the same untreated product and with the same product which had been treated as usual with 1% lime. The following crushing pressures were obtained:

55

to

Chopping pressure Not treated NPK 31.2 kg With 0.10% stearylamine treated NPK 12.5 kg With 0.09% of the invention Using treated NPK 12.1 kg As usual with 0.7% kieselguhr and 0.08% amine treated NPK 16.6 kg

The NPK fertilizer treated as usual gave a higher crushing pressure, and so did the product was dusty. The specific agent according to the invention that the considerably cheaper mixture of talc and Containing stearylamine gave better numbers than 100% stearylamine.

Example 4

NPK fertilizer 18-24-10 was treated according to Example I _1, however, at 85 ° C. with 0.10% of a fused intimate mixture of 50% talc and 50% stearylamine. This agent was added to the heated fertilizer in the form of small prills. The treatment was compared in the accelerated storage test with untreated and normally treated NPK fertilizers. In addition, the tendency of the fertilizer to form dust was determined in a special rotating drum. The dust formation was assessed visually on a scale from 0 to 5, in which the number 0 denotes a completely dust-free product and 5 denotes very strong dust. The following results were obtained:

Crushing dust formation

Untreated NPK- 36 kg

fertilizer

As usual with 0.8% kaolin, which is 25 kg
hydrophobized with 1.5% amine
treated NPK fertilizer

Wed 0.10% of the inventive 14 kg

treated according to the means
NPK fertilizers

3-4

The NPK treated as usual gave and shows a considerably higher crushing pressure also strong dust formation.

Example 5

NPK fertilizer 21-9-12 was treated according to Example 1, but with 0.05% of a melted intimate mixture of 50% talc and 50% hydrophobing organic compounds, consisting of amines, amides and saturated high molecular weight fatty acids added to heated fertilizers in the form of small prills. The treatment was compared in the accelerated storage test - test pressure 1 kgf / cm ² - with untreated and normally treated NPK fertilizer. The tendency of the fertilizer to form dust was determined in the same manner as in Example 4. The following results were obtained:

Chop up dust pressure education Untreated NPK 30.0 kg 0 fertilizer As usual with 0.25% kieselguhr 12.3 kg 2-3 and 0.10% amine treated NPK fertilizers With 0.05% of the invention 9.0 kg 0 treated according to the means NPK fertilizers

10

M)

The agent according to the invention resulted in a better anti-caking effect despite a very small dose than the usual treatment and also to a completely dust-free product.

Example 6

NPK fertilizers 12-18-16 were treated according to Example 1, but at 85 ° C. with 0.10% of a fused intimate mixture of 50% talc and 50% hydrophobing organic compounds, consisting of amines, amides and saturated high molecular weight fatty acids. This agent was added to the heated fertilizer in the form of small prills. The treatment was compared in the accelerated storage test - test pressure 1 kg / cm ² - with untreated and normally treated NPK fertilizers. The tendency of the fertilizer to form dust was determined in the same manner as in Example 4. The following results were obtained:

Chop up dust pressure education Untreated NPK 24.0 kg 0-1 fertilizer As usual with 1.2% kaolin, that 7.6 kg 5 hydrophobized with 1% amine was, treated NPK- fertilizer With 0.10% prills as above 5.0 kg 0 treated NPK fertilizer

The usual treatment with hydrophobized kaolin resulted in a higher crushing pressure and showed also extremely heavy dust.

Example 7

NPK fertilizer 6-12-18 was according to Example 1, but at 85 ° C with 0.05% fused intimate mixture of 50% talc and 50% stearylamine. The agent was treated to the heated Fertilizers added in the form of small prills. The treatment was in the accelerated storage test with untreated NPK and with diatomaceous earth and Compared to mineral oil treated NPK. The tendency of the fertilizer to form dust was based on the determined in the same manner as in Example 4. The following results were obtained:

Crushing dust formation

Untreated NPK- 19.4 kg 1

fertilizer

With 0.4% kieselguhr and 13.7 kg 2

0.15% mineral oil treated
NPK fertilizers

With 0.05% of the inventive 8.7 kg 1

treated according to the means
NPK fertilizers

The specific agent of the invention resulted in a considerably better dose despite a very small dose Anti-caking effect than the usual treatment with diatomaceous earth and mineral oil.

Claims (7)

Patent claims: 1. Anti-caking agent, consisting of a mixture of an inorganic powder material and one or several hydrophobic organic compounds, characterized in that it consists of a melted mixture and in the form of prills or granules with has a diameter of at least 0.2 mm 2. Anti-caking agent according to claim 1, characterized in that the mixture is 40-60% by weight contains one or more hydrophobic organic compounds. 3. anti-caking agent according to claim 1 or 2, characterized in that the inorganic Powder material is kaolin, talc or kieselguhr 4. anti-caking agent according to claim 1 or 2, characterized in that the hydrophobizing organic compound is an organic amine having at least 12 carbon atoms. 5. anti-caking agent according to claim 1 or 2, characterized in that the hydrophobizing organic compound is a hydrocarbon 6. A method for producing the anti-caking agent according to any one of claims 1 to 5, characterized in that characterized in that the powder material at elevated temperature with one or more of the hydrophobizing organic compounds mixed and the mixture sprayed into a cooling tower or introduced into a granulator. 7. Use of the anti-caking agent according to claims 1 to 5 for the treatment of a hygroscopic Product, the treatment being carried out at a temperature above the melting point of the water-repellent organic compound carries out, and preferably the hygroscopic product before this treatment with a solvent for the hydrophobizing organic compound, in particular with a mineral oil.